Grey County Septage Management Plan March, 2004
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Transcript of Grey County Septage Management Plan March, 2004
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SEPTAGE MANAGEM ENT PLANFOR THE
MUNICIPALITIES OF GREY COUNTY
Project No.: 103011Date: March 12, 2004
Prepared by:
Henderson Paddon & Associates LimitedCivil and Environmental Engineering Consultants
945 Third Avenue East, Suite 212Owen Sound, Ontario N4K 2K8
Telephone : (519) 376-7612Fax: (519) 376-8008email: [email protected]
# Town of The Blue Mountains # Grimsby
Copyright Henderson Paddon & Associates LimitedThis document may not be reproduced in whole or in part without the prior written consent of Henderson Paddon & Associates Limited.
/mjc/emm
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TABLE OF CONTENTS
1.0 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.1 Background and History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.2 Nutrient Management Act . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21.3 County of Grey . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21.4 Septage Management Plan - Comm ittees . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2.0 NUMBER OF SEPTIC SYSTEMS AND RAW SEW AGE HOLDING FACILITIES . . . . . . . . . . . . . 5
3.0 EXISTING AND ESTIMATED 20 YEAR POPULATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
4.0 QUALITY AND QUANTITY OF SEPTAGE, HAULED SEWAGE AND PORTA POTTY W ASTEW ATER. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
4.1 Estimated Quantity of Septic and Hauled Sewage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84.2 Historical Summary of the Quality of Septage and Hauled Sewage . . . . . . . . . . . . . . . . . 94.3 Porta Potty Wastewater . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104.4 Design Quality of Septage and Hauled Sewage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114.5 Estimated Quantity and Organic Loadings of Septage and Hauled Sewage - Existing and 20
Year Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
5.0 EVALUATION OF EXISTING MUNICIPAL WASTEW ATER TREATMENT FACILITIES IN GREYCOUNTY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135.1 Description of Twelve (12) Existing W astewater Treatm ent Plants in Grey County . . . . 135.2 Existing Design Hydraulic and Organic Loadings of Wastewater Treatment Plants in Grey
County . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135.3 Existing Hydraulic and Organic Loading Components at the W astewater Treatm ent Plants to
Treat Raw Sewage and Septage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145.4 Uncom mitted Hydraulic Reserve Capacity of W astewater Treatm ent Plants . . . . . . . . . 155.5 Assessment of Biosolids Production - County of Grey . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
6.0 REVIEW OF WASTEW ATER TREATMENT TECHNOLOGIES FOR TREATMENT OF SEPTAGEAND HAULED SEW AGE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
7.0 ASSESSMENT OF ALTERNATIVES FOR TREATMENT OF SEPTAGE AND HAULED SEW AGE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
7.1 W astewater Treatment Alternatives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 227.2 Evaluation of Wastewater Treatment Alternatives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
7.2.1 Preliminary Evaluation of Alternatives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 257.2.2 Discussion of the Social Evaluation of Alternatives . . . . . . . . . . . . . . . . . . . . . . . 287.2.3 Environmental Evaluation of Alternatives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 297.2.4 Assessment of Comments From Public and Government Agencies . . . . . . . . . 317.2.5 Septage Haulage Assessment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 337.2.6 Financial Assessment of Alternatives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
7.3 Evaluation of Septage Treatment Alternatives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 357.4 Environm ental Assessment Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 377.5 Preferred Septage Treatment Alternative . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
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8.0 CONCLUSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
9.0 RECOMMENDATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
SELECTED REFERENCES
LIST OF APPENDICES
Appendix A Terms of Reference, Septage, Task Force and Technical CommitteeAppendix B Septage Management Plan Terms of ReferenceAppendix C Nutrient Management ActAppendix D U. S. EPA Septage Design GuidelineAppendix E Private Treatm ent Supplier ProposalsAppendix F 1017853 Ont. Ltd. c/o W aste Not Compost Inc. Provisional Certificate of Approval for a W aste
Disposal Site (Processing)Appendix G Other Relevant Septage InformationAppendix H Public and Governm ent Agency Comments
LIST OF FIGURES
Figure No. 1 Municipalities and Population Centres in Grey County Septage Management PlanFigure No. 2 Municipalities of Grey County Septage Management Plan Well and W astewater Treatment
PlantsFigure No. 3 Septage Treatm ent Plant and Area to be Served for the Municipalities of Grey CountyFigure No. 4 Three Septage Treatment Plants and Areas to be Served for the Municipalities of Grey CountyFigure No. 5 Alternative 2 Upgrade Wastewater Treatment Plant at Durham Septage Management Plan -
Grey CountyFigure No. 6 Alternative 3 Upgrade Three Wastewater Treatment Plants - Flesherton Septage
Management Plan - Grey CountyFigure No. 7 Alternative 3 Upgrade W astewater Treatment Plant at Meaford - Septage Management Plan -
Grey CountyFigure No. 8 Alternative 3 Upgrade Wastewater Treatment Plant at Durham - Septage Management Plan -
Grey CountyFigure No. 9 Alternative 4 Septage Composting Facility Durham Septage Management Plan - Grey County
LIST OF TABLES
Table 1 Estimated Num ber of Properties Requiring Septic Systems or Sewage Holding Tanks -Municipalities of Grey County
Table 2 Estimated Existing Quantity of Hauled Sewage and Septage - Municipalities of Grey CountyTable 3 Estimated Quantity of Hauled Sewage and Septage for Municipalities in County of GreyTable 4 Sum mary of Septage Quality Data Selected Municipalities in Ontario - Municipalities of Grey
County
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Table 5 Summary of Hauled Sewage Quality Data Selected Municipalities in Ontario - Municipalitiesof Grey County
Table 6 Existing and 20-Year Design Hydraulic and Organic Loadings porta Potty WastewaterTable 7 Estimated Quantity and BOD5 and TKN Loadings - Septage and Hauled Sewage -
Municipalities of Grey CountyTable 8 Existing and 20 Year Design Hydraulic and Organic Loadings Septage and Hauled SewageTable 9 Assessment of W astewater Treatment Plants - County of GreyTable 10 Assessment of Biosolids Production - County of GreyTable 11A Social Assessment of Alternatives for Treatment of Septage and Hauled SewageTable 11B Social Assessment of Alternatives for Disposal of Treated BiosolidsTable 12A Environmental Assessment of Alternatives for Treatment of Septage and Hauled SewageTable 12B Environmental Assessment of Alternatives for Disposal of Treated BiosolidsTable 13 Haulage Cost for Hauled Sewage and Septage for Municipalities in Grey CountyTable 14 Alternative 3 - Estimated Quality of Hauled Sewage and Septage to Each of Three
W astewater Treatm ent PlantsTable 15 Summary of Project Costs for Septage Treatment by Aerobic Digester MethodTable 16 Financial Assessment of Septage Treatment, Haulage and Treated Biosolids Disposal
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1.0 INTRODUCTION
1.1 Background and History
A delegation from the County of Grey met with the Minister of the Environment at the ROMA/Good Roads
Conference in February 2003 to discuss the time frame and to obtain information about how the Ministry
intended to proceed with treatment and disposal of septage in the County of Grey. It was made clear by the
Minister to the delegation that the five (5) year period was not in place yet but he indicated that they wereconsidering banning the application of septage from the land in future and that this issue should be resolved.
On June 2, 2003, a meeting was held with representatives of the County of Grey, P K Maszra, Director of
W aste Management Policy Branch, Ministry of the Environment, Ms. Eileen Smith, Manager, Land Applicationand Policy Branch of the Ministry of the Environm ent, and Mr. Mohsen Keyvani, Program Support Coordinator,
Environmental Assessment and Approvals Branch, Ministry of the Environm ent. The M inistry was interested
in the County of Grey undertaking a pilot project to prepare a Septage Management Plan. During discussionsit was noted that Grey County was not involved in water or wastewater treatment and that the ManagementPlan would be undertaken by the nine (9) lower tier municipalities within the County.
As a pilot study, the province was prepared to commit 50% funding for the project. However, their preferencewas that it would be a study carried out by the County of Grey, and if the County was not prepared to carry out
the study, then a guarantee was to be provided indicating that all nine (9) municipalities would participate inthe pilot project for the septage management plan. A Municipal Septage Management Task Force wasestablished. Each of the lower tier municipalities appointed one (1) representative to the Task Force with thefirst meeting being held on August 21, 2003. At that m eeting, a Resolution was passed that each Municipalitywould contribute financially to their portion of the 50% of the cost of the study, which would be calculated on
the number of households in each m unicipality requiring septage systems. The Terms of Reference for theTask Force are attached in Appendix A.
The Task Force also set up a Technical Com mittee to assist in the study with one (1) representative each fromthe Grey Bruce Health Unit, the Grey Sauble, Saugeen Valley and Nottawasaga Valley ConservationAuthorities, the Ministry of the Environment, as well as a representative from the septage haulers, municipal
sewage disposal plant operators and representatives from each of the four (4) lower tier municipalities that
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currently employ septic inspectors. The Technical Com mittee Terms of Reference are also attached in the
Appendix A.
The second task was to develop a Terms of Reference (see Appendix B) and call for a Request for Proposalto Consultants to carry out the study and prepare the septage managem ent plan, which was awarded onJanuary 9, 2004 to Henderson Paddon & Associates Limited. The f irst meeting of the Task Force and the
Consultant was held on January 12, 2004.
1.2 Nutrient Management Act
The Provincial Government passed the Nutrient Management Act on June 27, 2002. Subsequently to that,Regulation 267/03 Nutrient Management Regulation was passed under the Nutrient Management Act and
came into affect on September 30, 2003. The Nutrient Management Regulation does not currently apply toland application of septage, however the requirements of the Nutrient Managem ent Regulation m ay apply to
septage that is treated either at a sewage works or at a treatment facility specifically designed to treat septagethat is then land applied for nutrient benefit and to the treatment facility itself the generator. The Nutrient
Management Regulation phases in requirements for generators of non-agricultural nutrients such as sewagebiosolids to begin preparing nutrient managem ent strategies between 2005 and 2008. The Nutrient
Management strategies account for the amount of nutrients generated and the destination of those nutrients.The land application of b iosolids is subject to the following Nutrient Managem ent Regulation requirements:winter spreading of sewage biosolids is banned from December 1st to March 31st and at anytime outside thosedates when the ground is frozen or snow covered. Also Regulation 326/03 to amend Regulation 347 to ban
the land application of untreated portable toilet waste was filed on August 1st, 2003 and the regulation cameinto force on October 30th, 2003. For more information on the Nutrient Management Act and Regulations, refer
to Appendix C.
1.3 County of Grey
The County of Grey is located approximately 150 km northwest of Toronto with the north portion of the County
bordering on the southern shores of Georgian Bay. The County of Grey has an estimated population of
approximately 83,000. The County is composed of nine (9) municipalities as shown on attached Figure No.
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1. The nine municipalities, including the original Townships and Municipalities prior to amalgamation are alsoshown on this F igure No. 1.
There are twelve (12) ex isting m unicipal wastewater treatm ent plants with in the m unicipalities in the Countyof Grey and the location of these municipal wastewater treatment plants are also shown on Figure No. 1
1.4 Septage Management Plan - Committees
In 2003, a Septage Management Plan Task Force was formed to oversee preparation of the SeptageManagement Plan. A representative from each of the nine (9) mem ber municipalities within the County wereappointed. The following is a list of the representatives on the Septage Management Task Force Comm ittee.
Mr. Bob Pringle, Township of Chatsworth Mr. Carl Spencer, Township of Georgian Bluffs (Vice-chair) Mr. Brian Mullin, Municipality of Grey Highlands Mr. Ed Falstrem, Town of Hanover
Mr. W ally Reif, Municipality of Meaford
Mr. Bill Twaddle, City of Owen Sound
Mr. Don Lewis, Township of Southgate Mr. Bob Gamble, The Town of the Blue Mountains
Mr. Delton Becker, Municipality of West Grey (Chair) Mr. Eileen Smith, Manager Land Application Policy Branch, Ministry of the Environment
Ms. Virginia Cook, Comm ittee Secretary, Task Force and Technical Committee
The Septage Managem ent Plan Task Force Committee also appointed a Technical Com mittee withmem bership from the Grey Bruce Health Unit, local Conservation Authorities and Ministry of the Environm ent,
septage Haulers, municipal sewage disposal plant operators and representative from each of the four (4) lowertier municipalities who have septic inspectors, namely the Township of Southgate and Chatsworth, and the
Municipalities of West Grey and Grey Highlands. The following persons are members of the TechnicalCommittee:
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Mr. Ian Mitchell, P Eng., Ministry of the Environment Mr. Chris Munn, Grey Bruce Health Unit
Mr. Douglas Hill, Grey Sauble Conservation Authority Mr. Rick Cole, Municipal Septic Inspector, Municipality of Grey Highlands
Mr. Doug Kopp, Municipal Septic Inspector, Township of Southgate Mr. Les MacKinnon, Environmental Health Officer, Municipality of West Grey
Mr. Gord W ilson, Municipal Septic Inspector, Township of Chatsworth Mr. Maurice Dempster, Septage Disposal Plant Operator, Municipality of Grey Highlands
Mr. David Russell, Septic Disposal Plant Operator, Ontario Clean Water Agency Mr. Al Smith, Ontario Association of Sewage Industry Services (OASIS ) Mr. Don Dillman, Septage Hauler Mr. Don Marshall, Septage Hauler
Mr. Doug W ilton, Septage Hauler Mr. Doug Schaus, Septage Hauler
Mr. Giles Ariel, Septage Hauler Mr. Roger Barrette, Septage Hauler
Mr. Sam Luckhardt, Septage Hauler
In addition, a representative from the Ministry of Municipal Affairs has also been involved with meetings inregard to th is study.
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2.0 NUMBER OF SEPTIC SYSTEM S AND RAW SEWAGE HOLDING FACILITIES
The number of existing septage systems in 2003 was based on information initially received from the MunicipalProperty Assessment Corporation (MPAC), for each of the nine (9) municipalities within Grey County. Theinformation was forwarded to each m unicipality for their review and to determ ine the numbers of septic
systems. The properties requiring septic systems or sewage holding tanks were grouped into eight (8)categories, as follows:
Residential
Multi-Residential
Commercial
Industrial
Farm
Recreational
Residential-Condos Institutional
The above categories were specified as each would represent a different sized septic tank for pumping by the
hauler and different years for pumping each of the septic tanks, depending on the type of property use. Thenumber of properties serviced in each municipality with a wastewater treatment plant versus those properties
not serviced was also determined. The estimated number of properties requiring septic systems or sewageholding tanks are shown for each of the mem ber municipalities on Table 1. Also included in that table is the
total number of properties serviced by a wastewater treatm ent plant currently in the municipality. The analysis
determined that the existing number of septic systems in Grey County in the year 2003 is 22,443. The number
of holding tanks is estimated to be 64, as shown in Table 1, for a total number of properties requiring septicsystems or holding tanks to be 22,507.
The study team was able to assess certain information from the County o f Greys GIS system including the
parcel fabric data of Municipal Property Assessm ent Corporation (MPAC). The MPAC data does not in mostcases accurately reflect the classification for services to a property and more often refer to unspecified service
or non-available in the database. Therefore, this information is not useful in trying to determine the distributionof septic systems in the Municipalities in Grey County. To estimate the distribution of septic systems within
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the County, water wells were plotted and shown on Figure No. 2. Generally, a septic system is situated wherea water well is located. However, this map shows only general distr ibution of septic system areas and there
are a few exceptions. It should be noted that most of core built up area of Flesherton, located within the
Municipality of G rey Highlands, is now serviced by a municipal sewage system and the density of septic
systems in the downtown core is not reflected in the water well location. In addition, the water wells in
Neustadt, are not indicative of septic systems since a sewage system was installed to service the main core
area of the hamlet in the early 1980's. In addition, there are likely many additional septic systems along theshores of Georgian Bay from W iarton in Bruce County to the Town of The Blue Mountains along Georgian Bay.
This area could have m any more septic systems due to the fact it is diff icult to obtain a groundwater supply inthis area and we are aware that many cottages and permanent homes obtain water directly from Georgian Bay.
It should be noted that there is a high density of septic systems in the former Sarawak Township near Owen
Sound in the existing Township of Georgian Bluffs, as well as in the Eugenia Lake Area northeast of Fleshertonin the Municipality of Grey Highlands and other areas in the County. W ater wells in the County of Grey would
be a general re flection of the density and distribution of septic systems within the County.
The following indicates the total number of septic systems and holding tanks in each of the nine (9)municipalities in Grey County:
Municipality No. of Septic Systems/Holding Tanks
Township of Georgian Bluffs 4540
Municipality of West Grey 4022
Municipality of Grey Highlands 3838
Municipality of Meaford 3048
Township of Chatsworth 2792
Town of The Blue Mountains 2286
Township of Southgate 1870
Town of Hanover 99
City of Owen Sound 12
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3.0 EXISTING AND ESTIMATED 20 YEAR POPULATION
In 2003 the population in the County of Grey was 82,860 based on data from the Municipal Directory. It is
important that any facility constructed or upgraded to provide treatment for septage should be designed for the
year 2024. It is assum ed that the number of septic system s within the nine (9) municipalities within GreyCounty would increase at the same rate as the population increase over the 20-year design period.
The Grey County Official Plan, was approved in August, 2000, and was reviewed regarding population
projection. It is assumed the population growth rate will be higher in certain municipalities such as the Townof the Blue Mountains versus other municipalities. A considerable portion of the population growth rate in the
Town of the Blue Mountains will be fully serviced thus the number of septic systems will not increase
signif icantly in this municipality. However, the population growth rate was discussed with the Septage
Management Task Force and Technical Committee during the initial meetings, and it was agreed that theannual growth rate over the 20-year design period utilized for septic systems and holding tanks would be 1.5%
per year. This growth rate would represent a 34.7% increase over the 20-year period or an estimatedpopulation in the year 2024 of 111,600. The estimated num ber of properties that would require septic systems
or holding tanks in the design year of 2024 is 22,507 x 1.347 = 30,317 properties.
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4.0 QUALITY AND QUANTITY OF SEPTAGE, HAULED SEWAGE AND PORTA POTTYWASTEWATER
4.1 Estimated Quantity of Septic and Hauled Sewage
The quantity of hauled sewage and septage within the Municipalities of Grey County has been estimated for
each individual property class, of which there are eight (8). The number of septic systems and holding tanksfor each property class are summarized on Table 2.
In order to estimate the quantity of septage and hauled sewage, we have combined the number of holding
tanks with the septic tanks since the number of properties requiring hauled sewage is only 0.28% of the totalnumber of septics and holding tanks. Generally, the wastewater from the holding tanks will not be as strong
as waste from septic tanks. However, it should be noted that wastewater from some holding tanks havestrong wastewater such as a wine m aking operation in Grey County.
The size of the septic tank for each property class, is indicated on Table 2. Residential, farm, recreational and
residential condos are estimated to have septic tank sizes of 4 m3. Commercial, industrial and institutional
properties are estimated to require septic tanks twice as large at 8 m3 and multi-residential properties are
estimated to have a septic tank size of 12 m3. It is recommended that septic tanks be pumped out regularly.
The frequency of pump out of septic tanks in years is shown in Table 2. Multi-residential properties should be
pumped out once per year, industrial and institutional septic tanks every two (2) years and residential,commercial, farm and residential condos every three (3) years. Due to the limited usage of recreationalproperties, these should be pumped at a frequency of once every five (5) years. This is a reasonablefrequency requirement for pumping out septic systems to maintain a properly operating septic tank. However,
this does not guarantee operation of the leaching beds as this would be dependent on groundwater levels, soilconditions and type of wastewater be ing disposed of in the septic tank. The estimated average wastewater
from septic tanks and hauled sewage generated per year for municipalities in Grey County as outlined in Table
2 is a total of 31, 519 m3 per year, which represents 86 m 3/day based on 365 days per year. However, it is
estimated that most of the septage and hauled sewage would be disposed of during a six-month period fromApril 1 to October 31. Therefore, this would represent a quantity of septage and hauled sewage at 172 m3/day
every day for a six-month period.
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The estim ated quantity of hauled sewage and septage for each m unicipality in the County of Grey and for each
property class is outlined on Table 3. The municipality with the most septage and hauled sewage is the
Township of Georgian Bluffs with 6,230 m3/year with the next largest quantity being the Municipality of W estGrey at 5,817 m3/year. The lowest quantity of septage and hauled sewage would be from the City of Owen
Sound, which is 27 m3/year.
4.2 Historical Summary of the Quality of Septage and Hauled Sewage
Grab sample analysis from septage being disposed of at the wastewater treatment plants in the Town ofMeaford in the County of Grey, the Municipality of Northern Bruce Peninsula and the Town of Saugeen Shores
in the County of Bruce and two (2) other areas in Ontario (City of Hamilton and the District of Muskoka) wereassembled. Data was obtained based on grab samples of septage quality from five (5) different municipalitieswith in Ontario from 2001 to 2003. A summary of the septage quality data for selected parameters is outlined
in Table 4. Table 4 also shows the range of concentrations for individual grab samples for different
parameters, the average concentration, the number of samples, and years recorded. There is also a rangefor an average of all five (5) municipalities, average number of samples and recorded years. This data isimportant to indicate the strength of the septage for design purposes. It should be noted that parameters suchas BOD5 have been sampled as high as 40,500 mg/L, TKN at 5,020 mg/L, Total Suspended Solids at 88,500
mg/L and Total Phosphorus at 8,000 mg/L. BOD5 and TKN have a significant oxygen demand for thetreatment of sewage or septage. These parameters are some of the key design parameters for sewage
treatm ent. BOD5 is defined as the biochemical oxygen demand of the wastewater over a five day period whenan inhibiting chemical has been added to the wastewater sample during laboratory analysis to prevent
am monia oxidation. TKN (Total Kjeldahl Nitrogen) is the organic nitrogen in the wastewater as determined bystandard laboratory m ethods. TKN would include the total am ount of amm onia in the wastewater. These
param eters significantly affect the organic capacity of any wastewater treatment plant to treat this type ofwastewater due to high organic strength. As well, it is noted in a previous sentence, where actual ranges are
described, some param eters analysed are based on approxim ately 180 grab samples, which indicates the highstrength of the wastewater. In addition, it indicates that although the treatment plant would be designed for a
specific design concentration, it should be noted that at certain times there will be very high strengthwastewater pertaining to organics and suspended solids coming into the plant for treatment of septage.
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It should also be noted that in some grab sam ples, there were high elevated levels of metals such as copper,zinc and aluminum. Copper was reported to be as high as 290 mg/L, zinc at 750 mg/L and aluminum at 5300
mg/L. It is not known where the high levels of metals originated. These parameters may be from chem icalsand cleaning products utilized in households and disposed of through plumbing to the septic tank. It should
be noted that in all cases, for the selected parameters, other than pH and chloride, the average concentrationof septage exceeds the Ontario Sanitary Model Sewer Use Bylaw criteria.
The U.S. EPA has suggested design concentrations for septage and these concentrations are outlined in
Appendix D. The U.S. EPA recomm ended design concentrations for septage for key design parameters are(7000 mg/L) per BOD5, (15,000 mg/L) for Total Suspended Solids and 700 mg/L for TKN. They also indicatingthat for heavy metals, a design guideline of 8 mg/L for copper, 40 mg/L for zinc and 50 mg/L for aluminum.
The U.S. EPA design guidelines for selected param eters are shown in Table 4. As can be seen in Table 4,
some grab samples indicate much higher levels than the design concentration listed for copper and zinc, whichneeds to be investigated further to ensure there is not a problem with final disposal of treated wastewater or
compost on farm land in regard to heavy metals.
All hauled sewage quality data from holding tanks were obtained from grab samples in the Municipality of GreyHighlands in the County of Grey and from the Municipality of Northern Bruce Peninsula in neighbouring Bruce
County. Again, the hauled sewage data was analysed for selected parameters in regard to range, averagequality, num ber of sam ples and years sam pled. It should be noted that some hauled sewage had high levels
of BOD5 such as 5,170 mg/L. There was also a high concentration of suspended solids of 26,100 mg/L, and
TKN of 952 mg/L in hauled sewage. This data is as outlined on Table 5. It is therefore fe lt that, the small
quantity of hauled sewage should be combined with septage since there is an indication that the organic qualityof hauled sewage is significantly high, in som e cases, which is close to the quality of hauled septage.
4.3 Porta Potty W astew ater
The amount of existing porta potty wastewater in the year 2003 was estimated from information obtained from
porta potty haulers in Grey County. The existing estimated quantity of porta potty wastewater is 1.9 m3/day
over a 365-day period as shown on Table 6 which is equivalent to a 694 m3/year. Porta potty wastewater is
presently not being approved to be spread on agricultural land and is currently being treated at existing
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wastewater treatment plants. The quality of porta potty wastewater will be considered the same as septageand hauled sewage.
4.4 Design Quality of Septage and Hauled Sewage
Based on the information collected and as outlined in Section 4.2, on the quality of septage and hauled sewage
and a review of the suggested design values for septage from the U.S. EPA, as outlined in Appendix D, it issuggested that the U.S. EPA design values be utilized for the quality of septage and hauled sewage and porta
potty wastewater from Grey County. In general, it is recommended that for organic parameters, a design valuefor of 7000 mg/L for BOD5, 15,000 mg/L for suspended solids and 700 mg/L for TKN be used. These are the
key parameters that will affect the treatment of this wastewater in regard to either a privately constructedtreatm ent facility or an ex isting wastewater treatm ent plant.
4.5 Estimated Quantity and Organic Loadings of Septage and Hauled Sewage - Existing and 20
Year Design
The estimated potential existing quantity of BOD5 and TKN loadings for septage and hauled sewage in each
of the municipalities in Grey County is outlined in Table 7. This table outlines the number of septic systems
and holding tanks in each of the individual municipalities and the quantity of septage and hauled sewage fora six-month period, which totals 172 m3/day. Using the U.S. EPA design, values for BOD5, TKN and
suspended solids of 7000 mg/L, 700 mg/L and 15,000 mg/L respectively, the BOD5, TKN and suspended
solids loadings for each municipality are calculated as shown on Table 7. The total estimated potential existing
quantity of BOD5 and TKN for septage and hauled sewage but not porta potty waste is 1204 kg/day for BOD5based on a six-month period, 120.4 kg/day for TKN and 2,580 kg/day for suspended solids.
The existing quantity of septage and hauled sewage is outlined in Table 8. The existing quantity of septage
of 171.3 m3/day. The quantity of hauled sewage is 0.7 m3/day and the quantity of porta potty sewage is 1.9m 3/day, for a total of 173.9 m3/day based on a six month treatment period. The quantity of septage is 98.5%
of the total quantity of septage and hauled sewage. Porta potty waste is 1.1% and hauled sewage is 0.4%.The 20-year design quantity for the year 2024 is 234.2 m3/day based on a six-month treatment period from April
1 to October 31.
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The total potential existing BOD5 loading from the hauled sewage and septage is 1,217 m3/day and the TKN
loading would be 121.7 kg/day as shown in Table 8. The 20-year design value for BOD5 loading is calculated
to be 1639 kg/day and the TKN loading is calculated to be 163.9 kg/day. Table 7 outlines the design figures
that are estimated on the number of septic systems and the amount of septage and hauled sewage for the
existing and design year 2024.
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5.0 EVALUATION OF EXISTING MUNICIPAL WASTEWATER TREATM ENT FACILITIES IN GREY
COUNTY
5.1 Description of Twelve (12) Existing Wastewater Treatment Plants in Grey County
There are twelve (12) existing municipal wastewater treatment plants in the County with locations as shownon Figure No. 2. All nine (9) municipalities have at least one (1) wastewater trea tment p lant except theTownship of Chatsworth. The Town of the Blue Mountains has two (2) wastewater treatment plants one atCraigleith and one at Thornbury. The Municipality of Grey Highlands has three (3) m unicipal wastewatertreatment plants, located at Markdale, Flesherton and the Amik W astewater Treatm ent Plant at Kim berley.
The Municipality of West Grey has two (2) municipal wastewater treatment plants, one at Durham and one inthe Hamlet of Neustadt. The wastewater treatment plant facilities range from a primary wastewater treatment
plant for the City of Owen Sound with tertiary treatment plants located at Flesherton, Craigleith, Markdale,Amik, Dundalk, Derby, Meaford, Thornbury, Durham , Town of Hanover and Neustadt would be considered
secondary wastewater treatment plants.
5.2 Existing Design Hydraulic and Organic Loadings of Wastewater Treatment Plants in Grey
County
The treatment of septage from the municipalities in Grey County requires an assessment of the existing twelve
(12) municipal wastewater treatment plants and whether they have the capacity to treat septage using a pre-treatment facility or treat liquid wastewater after removing biosolids, or to treat septage wastewater directly at
the existing wastewater treatment plants.
The existing design hydraulic and organic capacities of the existing twelve (12) wastewater treatment plantsin the municipalities in Grey County are shown on Table 9. The design hydraulic capacities of the plants range
from 24,545 m3/day at the Owen Sound W astewater Treatment Plant to 57.5 m3/day at the Derby W astewater
Treatment Plant in the Municipality of Georgian Bluffs. The design hydraulic capacity for each plant is outlined
in Table 9. The total design hydraulic capacity of all the plants is 48,126.5 m3/day.
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The existing design organic BOD5 and TKN capacities of the plants were determined. They range from 3,682kg/day for BOD5 organic design capacity at Owen Sound to 31.6 kg/day BOD5 at the Derby W astewater
Treatment Plant. The total BOD5 organic design capacity is 8,736.2 kg/day. The total TKN design capacityis 963.5 kg/day.
5.3 Existing Hydraulic and Organic Loading Components at the Wastewater Treatment Plants to
Treat Raw Sewage and Septage
Existing average sewage flows were reviewed for varying years from 1997 to 2003 depending on the availabilityof data as shown on Table 9. Average sewage flow to each plant varies from 13,704 m3/day at the Owen
Sound Plant to 43.7 m3/day at the Derby W astewater Treatment Plant. The total existing average sewageflows to all twelve (12) plants are estimated to be 27,696 m3/day, based on recent data, which is 57.5% of thedesign hydraulic capacity of all twelve (12) plants.
The existing quality of raw sewage BOD5 and TKN is based on actual data from 1997 to 2003 depending oneach of the twelve (12) wastewater treatment plants. The concentration of average raw sewage BOD5 rangefrom 57.3 mg/L at the Thornbury W astewater Treatment Plant to 550 kg/L or (design value) at the Derby Plant.It should be noted that the average BOD5 for 2003 for the Town of Hanover was 340.3 m g/L, which is in excess
of the Model Sewer Use Bylaw, criter ia of 300 m g/L. Based on the average raw sewage quality and averageraw sewage flow for the same years, the existing average raw sewage BOD5 loading for each plant were
calculated. The total average raw sewage loadings in kg/day for all twelve (12) plants was 3,797.3. This is43.5% of the total design BOD5 organic design capacity. The BOD5 loading for each of the wastewater
treatment plants are outlined in Table 9. The same analysis was carried out in regard to TKN. The raw sewage
quality for TKN ranges from 10.7 mg/L at the Thornbury plant to the design value estimated for the Derby
W astewater Treatment Plant of 85 mg/L. Based on actual sewage flows and the quality for TKN, average raw
sewage TKN loadings were ca lculated for each plant for 2003 as outlined in Table 9. The total existing
average raw sewage TKN loading for all twelve (12) plants is 442.9 kg/day, which is 46% of the capacity of thetwelve (12) treatment plants to treat TKN. In summ ary the following are existing unused hydraulic and organiccapacities available to treat raw sewage and septage at the existing 12 m unicipal wastewater treatment plantsin Grey County not considering com mitted capacity.
Existing unused hydraulic capacity - 20,431 m3/day Existing unused BOD5 organic capacity - 4,938.9 Kg/day
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Existing unused TKN organic capacity - 520.7 Kg/day
5.4 Uncommitted Hydraulic Reserve Capacity of W astewater Treatm ent Plants
Each municipality in Grey County was asked to indicate the committed hydraulic capacity for each wastewatertreatment plant within their m unicipality. The value in m 3 /day is given for each of the twelve (12) plants in Table9. The comm itted hydraulic capacity ranges from 10,841 m3/day in Owen Sound to zero in the Neustadt, andDerby W astewater Treatment Plants. Total comm itted hydraulic capacity for all twelve (12) plants within thenine (9) municipalities is 16,454 m3/day. Therefore, the uncomm itted hydraulic reserve capacity was calculatedas shown in Table 9 for each of the wastewater treatment plants. The total uncomm itted hydraulic reserve
capacity from the wastewater treatment plants in Grey County is 3,977 m3/day. Owen Sound, Cra igleith,Thornbury and Amik W astewater Treatment Plants have zero hydraulic reserve capacity remaining. Therefore,
there are only eight (8) wastewater treatment plants having some uncom mitted hydraulic capacity remaining.The largest capacity remaining is at Hanover W astewater Treatment Plant at 1,977 m3/day, second largest
being the Durham W astewater Treatment Plant at 972 m3/day with the next largest being Dundalk at 342m 3/day. It should be noted that there is interest by the private sector at Durham for a hydraulic capacity of 415
m 3/day at the wastewater treatment plant. Other wastewater treatment plants with some significant remainingcapacity are Meaford at 277 m3/day, and Flesherton at 195 m3/day. The remaining wastewater treatment
plants have a relatively low uncommitted hydraulic reserve capacity.
5.5 Assessment of Biosolids Production - County of Grey
An assessment was carried out of the existing biosolids production per year in the County of Grey at the twelve(12) wastewater treatment plants. A number of plants have lagoon facilities where biosolids are only removedapproximately every 20 years and assessed estim ates were made of the quantity of biosolids for these
facilities. Table 10 estimates the existing quantity of biosolids produced each year at all twelve (12) wastewatertreatment plants in Grey County. The total estimated biosolids as shown on Table 10 is 22,500 m3/year at an
estimated average solids of 4%. The amount of biosolids was evaluated since a significant am ount of
agricultural land must be available to dispose of the biosolids. If the biosolids are treated into compost orfertilizer material and spread on agricultural land, there would be fewer objections from neighbouring propertiesin regard to odours or water quality concerns with groundwater and surface water pollution. There may besome benefit in the long term to treat septage and bioso lids together to reduce the dependancy on obtaining
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approvals for disposal of biosolids. There is also a reluctance from farmers to take biosolids for a number of
reasons considering concerns regarding water quality and objection from neighbours. Spreading of treatedbiosolids in a composted or fertilizer material, in a dry format, would be more acceptable both environm entally
and socially.
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6.0 REVIEW OF WASTEWATER TREATMENT TECHNOLOGIES FOR TREATMENT OF SEPTAGE
AND HAULED SEWAGE
W astewater treatment technologies have been reviewed for the treatment of septage and hauled sewage in
Grey County include the following.
1. Using the existing capacity at existing treatment works using typical wastewater treatment technologiesand pre-treatm ent of septage at the wastewater treatm ent plant.
2. Dewatering and treatment of concentrated septage solids using a privately designed and operated
treatm ent facility with liquid wastewater going to a wastewater treatm ent plant.
3. A treatment facility only to treat septage and possibly biosolids in Grey County.
In addition, treatment of septage should also be considered along with treatm ent of biosolids in Grey County.One method of ultimate disposal is to spread the treated wastewater on agricultural lands for both biosolids
and treated septage. The amount of biosolids to be treated would be 22,500 m3 / year at approximately 4%solids. A treatment design could also include treatment of biosolids and septage at the same facility. However,
there would be problems with trucking this wastewater long distances if there was only one (1) facility in GreyCounty. Consideration was also given to separating solids at the septic tank site using specialized trucks that
cost approximately $300,000 each, which would take away the solids and leave the liquid in the septic system.However, it has been reported that local property owners may not be in agreement with this method since
liquid sewage remains in the septic tank. As well, these trucks may not operate satisfactorily during the wintermonths. In addition, the ultimate disposal of biosolids on agricultural land in Grey County is becom ing more
of a problem as farmers are not allowing the spreading of biosolids on their land due to neighbours concernsregarding odours and water quality.
Lim e stabilization has also been considered as an interim measure to treat septage before application on
agricultural land.
Privately owned and operated dewatering and com positing facilities are being seriously considered incooperation with treatment of liquid at a municipal wastewater treatment plant or a stand-alone facility, which
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would treat and discharge to the environment, including a wastewater treatment facility for the liquid portionof the wastewater. These privately owned facilities produce a compost that could be spread on agricultural
land, the same as biosolids, or in some cases, could be treated to meet agricultural standards for a fertilizerproduct, which in turn is sold to the fertilizer industry thus negating the site specific approvals for spreading on
agricultural land. The advantages of a composted material both for septage and possibly biosolids is that theodour problem may be eliminated and the amount of water quality concerns dealing with liquid runoff with the
spreading of liquid biosolids would be reduced.
Septage, which has an approximate concentration of solids of 2.5 to 3 percent can be dewatered using apolymer and centrifuge to approximately 30% solids or a 10 times reduction in volume. It is understood that
the rem aining liquid waste required to be treated in a wastewater treatment plant would be of a quality to meetthe Sewer Use Bylaw and could be discharged without any serious problems in relation to odours into a
sanitary sewer collection system. There are existing biosolids/composting treatment facilities in a few locationsin Ontario with facilit ies in Sarnia and Leamington by N-VIRO Systems Canada Inc. to treat biosolids into a
compost material (soil amendment), which can be spread as agricultural fertilizer. This fertilizer has good valueand has been selling for approximately $25 to $35/tonne, although the actual value of this product is estimatedto be closer to $90/ton.
There are other technologies such as presented by Mr. Don Chauvin of Environmental Treatment Servicesto treat septage. However, to date there are no plants in Ontario to treat the septage. Treating of biosolids
and septage is similar; however, N-VIRO has not treated septage in their system for compost. It would appearthat any system that would be used privately or publically to treat septage and then discharge liquid wastewater
to a treatment plant, and the composted material to agricultural land would require pilot testing, either at anexisting facility or at a new pilot testing fac ility.
Some technologies considered in this study are as follows:
1. Treatment of septage in the normal wastewater stream at the existing twelve (12) wastewatertreatm ent plants in Grey County.
2. Construct facilities for pre-treatment of septage at one (1) or several treatment plants in Grey County.
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3. Dewatering and treatment of septage by the private sector with liquid wastewater discharged to aselected treatm ent plant in Grey County and with the composted material being sold as either compost
or as agricultural fertilizer to be spread on agricultural land.
4. Lime stabilization in trucks for spreading of septage on agricultural land as an interim measure.
5. Dewatering of septage, aeration of Biosolids and treatment of wastewater in a facultative lagoon withmarsh treatm ent. Treated biosolids would be spread on agricultural land. This septage treatment
method is further outlined under Item 1 in Appendix G.
6. Consideration of a m obile septage dewatering and treatm ent facility that could move to differentwastewater treatment plants and treat septage into a compost material to be spread on agricultural
land with the liquid portion to be returned to the local wastewater treatm ent plant.
7. A stand alone, privately owned and operated wastewater treatment plant that would dewater, compost
and treat effluent to discharge treated liquid wastewater back to the environment to a receiving water
body.
8. Separating of solids from liquids at septic tank by specialized pumper truck.
9. Separating the wastewater streams at the construction stage into toilet water, grey water, and softernerwater, with modified plumbing and septic system.
There are m any other septage treatment facilities and types of technologies that could be used. Refer to
Appendix G for more information. The above is a review of the methods we are aware of which we fee l would
be reasonable to be considered for this project.
The comm ittee could consider other technologies in the future; however, it must be established that these
technologies are proven and have a reasonable chance of success. It would be necessary that a pilot studybe carried out since in Ontario there has been no specialized treatment of septage other than m inim al
treatment carr ied out in the past in the District of Muskoka and treatment at existing municipal sewagetreatment plants.
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Presentations were made to the Septage Managem ent Com mittee Meeting on February 9, 2005 by two (2)prospective private companies to build and operate privately owned and operated facility in conjunction withthe Municipalities in Grey County. N-VIRO Systems Canada Inc. and Environmental Treatment Services. N-VIRO Systems Canada Inc. makes a compost material that can be used as a fertilizer in the fertilizer industry.
Environmental Treatment Services reviewed a number of different technologies utilized in the United States;however, none of these technologies have been tried in Canada. Details regarding the above mentioned
companies and their capabilities are contained in Appendix E. Also, we received on February 23, 2004
proposals for treatment of septage from each the companies listed above which are also in Appendix E. Costs
vary widely and more detail was provided by N-VIRO Systems Canada Inc., which have up and runningsystems for treatment of biosolids in Sarnia and Leamington for a number of years.
The N-VIRO System s Canada Inc. proposal is based on the assumption that the facility would be located at
a site where municipal wastewater services are available and that the liquid waste, which would meet the
Sewer Use Bylaw could be discharged to the sanitary sewer system to be treated at the wastewater treatment
plant.
Environmental Treatment Systems (ETS) would also produce a privately constructed and operated system,which would treat the septage and produce composted treated biosolids, which could be marketed as a soil
amendment. Th is m ay or may not require approval for disposal on land. L iquid wastewater could be
discharged to a sanitary sewer for treatment. It is estimated that the liquid stream would be integrated so that
loading to the wastewater treatment would be at periods of low flow loading during the evening hours. Analternative to construct a stand-alone treatment facility that would meet provincial environment effluent
standards for discharge to a stream was also presented.
Both proposals did not include the cost of carrying out an environmental assessment, cost of land or servicingthe facility. ETSs proposed stand-alone system does not include additional insurance charges required
resulting from the heavy liability associated with a facility that discharges directly to the natural environm ent.
More details are required in regard to treatment facilities as outlined for Environmental Treatment Services withrespect to costs, size of structure, etc. N-VIRO Canada Systems Inc. has indicated the size of building required
of approximately 15 m x 18 m (50' x 60') process building, product storage building with an asphalt floor of 18
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m x 30 m (60' x `100'). The N-VIRO System is a patented system in the United States. They are presentlynegotiating with other large municipalities for the treatment of biosolids.
Environmental Treatment Services needs to provide more detail in relation to types of building, detailed cost
estimate, etc. Also they do not have a system in operation in Ontario and are relying on information from theUnited States. Both system should be considered and pilot studies would have to be carried out to prove that
these facilities can adequately treat septage. A detailed review would be required to be carried out for bothof the systems before recomm endations for either of these systems or any other system proposed to deal with
technologies for treatment of septage. A pilot plant will be necessary along with a Class EnvironmentalAssessm ent, whether or not th is is public/private or a private facility to review locations, public and government
concerns, social, environmental and financial aspects of these projects.
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7.0 ASSESSMENT OF ALTERNATIVES FOR TREATMENT OF SEPTAGE AND HAULED SEWAGE
7.1 Wastewater Treatment Alternatives
There are nine (9) wastewater treatment alternatives that are being considered to treat septage within the GreyCounty jurisdiction. The alternatives are described as follows:
1. Upgrade One (1) Wastewater Treatm ent Plant in Each M unicipality
Although there are twelve (12) wastewater treatm ent plants with in the County of Grey, not all wouldbe required to be upgraded (see Figure 3). For example, the City of Owen Sound with just twelve (12)septic systems would probably not be required to undertake any significant measures relating to
septage. The Town of Hanover, with ninety-nine (99) septic systems have capacity. Currently, theTownship of Chatsworth does not have a wastewater treatment facility thus leaving the municipality
in a situation whereby an arrangement would be required with another m unicipality.
Since a number of other municipalities have more than one (1) was tewater treatm ent facility, adecision would be required in relation to which facility would be upgraded in each municipality to treat
the septage. Six wastewater treatm ent plants would be upgraded to treat septage under thisalternative.
2. Upgrade One (1) Municipal Wastewater Treatment Plant Within the County of Grey to Treat AllSeptage
Upgrade one (1) municipal wastewater treatment plant within Grey County by conventional treatmentmethods. This could be undertaken by pre-treatment of septage and then proceeding to have sewage
flow through the existing plant at Durham. This option could be financed and operated by one (1)municipality or under Joint Agreement by all municipalities within Grey County (see Figure 4 and 5).Hanover wastewater treatm ent plant could also be considered as an alternative site.
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3. Upgrade Three (3) Wastewater Treatment Plants to Accept and Treat All Septage Across theCounty
Upgrade three (3) municipal wastewater treatment plants (Flesherton, Meaford and Durham ) withinGrey County by conventional treatment methods, which could be undertaken by pre-treatment ofseptage and then proceeding to have sewage flow through existing plants. This option could be
financed and operated by the host municipalities or under Joint Agreement by all municipalities with inthe County of Grey (see Figures 4, 6, 7 and 8).
4. Privately Owned and Operated Dewatering and Compositing Facility at One (1) of the ExistingWastewater Treatment Plants Within the County of Grey
In this alternative as shown in Figure 9, in Durham, the host municipality would be reimbursed
according to their Sewer Use Bylaw at the rate stipulated. The dewatering and composting portion ofthe treatment would not necessarily be located at an existing wastewater treatment facility, it could
be located in an industrial park providing there was access to a sanitary sewer main to dispose of thehydraulic effluent. The composted biosolids would be used in a fertilizer or a so il amendment on
agricultural land. The Town of Hanover could be considered as an alternative site.
A mobile dewatering unit could be purchased to dewater biosolids at other wastewater treatmentfacilities. This would reduce the volume of b iosolids being hauled to the composting site.
Private ownership could be a corporation with a Board of Directors, or by single ownership. Possibly
a number of individuals could buy into the ownership through shares. This could involve the haulers,as part owners and shareholders, in the enterprise.
5. A Privately Owned and Operated Wastewater Treatment Plant, Which Would Dewater, Compost
and Treat Effluent for Discharge Back to the Environm ent (Receiving W ater Body)
This option could be situated at any location within the County of Grey, wherever approvals could be
obtained and would not be dependent on an existing wastewater treatment facility to receive the
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wastewater from the process. This facility could be located anywhere within the County providingapproval is obtained from the Ministry of the Environment and local planning authorities.
Private ownership could be a corporation with a Board of Directors, or by single ownership. Possibly
a number of individuals could buy into the ownership through shares. This could involve the haulers,as part owners and shareholders, in the enterprise.
6. A Mobile Privately Owned and Operated Treatment Facility That Could Move from Site to Site
to Treat Septage and Possibly Biosolids
This option would leave wastewater in the original plant. The mobile unit would be situated at differentfacilities at different times leaving hauling distances for septage variable.
7. Use of Specialized Pumper Trucks to Separate Solids and Liquid from Septage at Septic Tank
Site
This alternative would require each hauler to purchase new specialized equipment, and treatment of
biosolids would still be required. Also, there will still need to be upgrades carried out to wastewater
treatment plant(s) to accomm odate the removed biosolids.
8. A Large, Privately Owned and Operated Treatment Facility with the Capability to Service a
Larger Geographic Area than the County of Grey
This alternative would give haulers from outside the County of Grey an opportunity to use the treatment
facility, creating a large facility that could be more cost effective both from a capital and operatingperspective.
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9. Liquid Lime Stabilization in the Tanker by a Private Hauler, Followed by Spreading on
Agricultural Land
This option, in its basic form, would require the hauler to add liquid lime to their tanker load at a rate
of 11.4 to 22.7 litres (2.5 to 5 gallons) of lime per 4.546 m3 (1000 gallons) of septage. This could bemore sophisticated by haulers travelling to a central area to run septage through a separator, which
would remove the solid waste (plastics, etc.). Lime could be metered into the septage to raise the pHlevel to above 12. The product would then be spread on agricultural land.
7.2 Evaluation of Wastewater Treatment Alternatives
7.2.1 Preliminary Evaluation of Alternatives
As discussed previously in Section 7.1, there are nine (9) general wastewater treatment alternatives forseptage. It should be noted that the amount of septage, hauled sewage and porta potty wastewater to betreated in the 20-year design period is 234.2 m3/day for a six month period. The uncom mitted reserve hydraulic
capacity is approximately 3,977 m3/day. However the present unused hydraulic capacity is 20,431 m3/day,
which is 87 times m ore than the amount of septage in the year 2024 for a six-month period. The uncommitted
BOD5 loading capacity in kg/day for the twelve (12) wastewater plants is 600.3 Kg/day. The amount requiredin the year 2024 is 1639 Kg/day. However, the existing unused BOD5 capacity at all plants is 4,938.9 kg/day,
which is 3 times m ore than that required to treat septage.
The uncom mitted TKN loading capacity from the twelve (12) wastewater plants is 126.3 kg/day, whereas thetotal TKN loading capacity required to treat septage in the year 2024 is 163.9 kg/day. Therefore, there is
insufficient capacity to fully treat the TKN loadings in the 20-year design period. However, the available TKNloading capacity is 520.7 kg/day, which is 3.2 times greater than the TKN capacity required to treat septage
in the year 2024.
The existing wastewater treatment plants would only be available if some municipalities were willing torelinquish some of their comm itted hydraulic capacity, which is significant at 16,454 m3/day, which is 80% of
the present unused hydraulic capacity.
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Considering only the uncommitted hydraulic reserve capacity, there would appear to be sufficient capacity atthe Hanover or Durham W astewater Treatment Plants to accept all hydraulic capacity of liquid wastewater after
pre-treatment of the septage to a compost m aterial or b iosolids since the liquid flow is only 234.2 m3/day.However, if three (3) sites are used such as in Alternative 3, the three (3) sites would be Durham, Fleshertonand Meaford based on the uncom mitted hydraulic reserve capacity.
For Alternatives 2, 3 and 4, there needs to be suff icient capacity left for future development within the
municipalities without a significant upgrade to the wastewater treatment plants. However, most treatment
plants are well into their 20-year design period and will eventually require major upgrades.
Two (2) proposals concerning privately constructed and operated treatment of septage facilit ies from N-VIROSystems Canada Inc. and Environmental Systems Services were received as outlined in Appendix E. Serious
consideration should be given to using private facilities to treat septage; however, it would appear in the longterm that there would need to be a commitment by the Municipalities through bylaws or a public/private
agreement in order to ensure that a private facility would be adequately compensated to treat septage. Theprivate sector is not going to construct a treatment facility without some reasonable certainty that they would
receive septage wastewater for treatment.
A more detailed assessment will be given to Alternatives 1, 2, 3, and 4. Alternatives 5, 6, 7, 8 and 9 will befurther discussed in this section since Alternatives 5, 6, 7, 8 and 9 require significantly more study to arrive at
a cost estimate and whether or not the alternatives are feasible. Alternative 6, which is a mobile privately
owned and operated treatment facility; which could move from site to site to treat septage and possibly
biosolids, has been used to some extent in the United States, however, very little data is available at this time.
There are no treatment facilities of this nature in use in the Province of Ontario, although if the private sector
had a detailed proposal on utilization of this treatment approach, it should be seriously considered. One
problem with this type of system is a septage hauler collecting septage requires a schedule for where septage
is to be hauled. The other problem with a facility of this nature is, if one of the septic tanks in the southern part
of Grey County requires pumping out, and the treatm ent facility is located in the northern part of the County
for that week, there would be significant increased haulage costs. Numerous difficulties with this type of facilityare evident.
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In relation to Alternative 7, which is the use of a specialized pumper truck to separate solids and liquids in a
septic tank at the site, the pumper trucks are available but costly at approximately $300,000 and may not beable to operate properly during freezing conditions in the winter. In addition, we have had complaints fromseptage haulers that once the solids have been rem oved and liquid remains in the septic system, the
homeowner feels that the tank has not been cleaned out completely. In some cases, the leaching bed maybe flooded and a significant amount of liquid would have to be removed from the leaching bed as well, should
the leaching bed be plugged; therefore, showing no reduction in the liquid in the facility. This would reducetrucking costs but would still require a septage treatment facility. However, costs to dewater septage may be
significantly lower.
Alternative 8 is a large private owned and operated Treatment Facility with Capability to cover a largergeographic area than Grey County. This option is not being considered in detail. We have informed
neighbouring municipalities about this study and have received some response from these communities.There would need to a commitment from neighbours to service a large geographic area. There is also a
problem with a reasonable distance to a treatment facility for trucking although one (1) facility to service twoor three counties may be more cost effective to treat septage. The cost for hauling may increase greatly, which
may be more costly than having smaller systems with significantly less distance for the hauler to travel. Thereis also the public concern that hauling septage more than 60 kilometres causes an increased volume of truck
traffic on the roads and socially may be unacceptable, particularly if the haulage distances are high and largertrucks are required. There may also be a requirement to have septage transfer stations for this option to be
feasible.
Alternative 9, which is liquid lime stabilization in the truck tanker by a private hauler followed by spreading onagricultural land may be used as a temporary measure but it is felt that this would not be a long term solution
for treatm ent of septage. The liquid wastewater would be spread on agricultural land, which may be a socialconcern with respect to ground and surface water quality as well as odour problems with neighbours.
In the next section there will be a more detailed analysis of the Alternatives with regard to social and
environmental aspects. Financial details will be outlined for alternatives 1, 2, 3 and 4.
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7.2.2 Discussion of the Social Evaluation of Alternatives
The social assessment of the alternatives have been carried out from two (2) different perspectives - the firstbeing the social impact of the treatment of the septage, and the second being the social impact of the disposal
of the bioso lids.
Treatment
The social assessment of the treatment alternatives for septage is outlined in Table 11A.
Location - Conventional treatm ent alternatives would use existing wastewater treatment plants. A
Composting facility could be located in an industrial park.
Quality of Water - if the septage is dewatered and composted then there would be no significant effecton the quality of water, whereby conventional treatment would have the same effect on water quality
as it has today with the spreading of biosolids required. Noise - The least number of plants receiving the septage, the larger the mechanical operation and
therefore, noise could increase and may require m itigation. Odour - Composting would create odour due to the heating process requiring biofilters or scrubbers
for m itigation. W ith conventional processes, the odour should be sim ilar to what exists today. Dust
- Dust should not be a factor with the exception of increased traffic in the area of treatment which
would require paved accesses particularly in a lternatives with one treatm ent facility.
Traffic - As the number of treatment facilities decrease, the volume of traffic would increase.
Ownership - In the conventional alternatives, the Municipality would own and operate the facility
therefore, having control. The composting alternatives may be owned by the private sector or be a
private/public ownership facility. This would require fairly detailed agreements in order to control thecosts, however, the private sector does require to make a profit to remain in business.
Disposal of Treated Biosolids
The social assessment of the disposal of treated biosolids is outlined in Table 11B.
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Location - In the composting alternatives, the compost would become fertilizer and would be used
by the agricultural community, therefore, the disposal could be wherever there was demand for thefertilizer. In the conventional alternatives, the disposal would probably be similar to what happens
today which is liquid biosolids spread on agricultural land. Effect on W ater Quality - The composting alternatives would have no significant effect on the water
quality. The conventional methods would have the sam e effect as ex ist today.
Noise - W ith the composting alternatives, there should be less product, therefore, there should be less
noise than exists today.
Odour - W ith composting, there should be no increase in odour. W ith conventional biosolids disposal,
it should be the sam e as exists today.
Dust - Com posting should have less dust than exists today and the conventional method should be
the same as the existing. Traffic - There would be less product to dispose of in the composting alternatives, therefore, there
should be less traffic than exists today. W ith the conventional alternatives, there could be the same
as existing or more traffic.
Ownership - In all alternatives, it would be expected that disposal would be carried out by private
haulers.
7.2.3 Environmental Evaluation of Alternatives
Environmental aspects of the alternatives are evaluated in two parts, firstly the treatment of septage and
secondly the disposal of treated biosolids. Surface and groundwater is to be adequately protected andassessed during the detailed investigation of septage treatment alternatives. Capture zones for municipal
groundwater supply wells should be given careful consideration during the detailed assessment of anyalternative for the treatment of septage.
Treatment
The environmental assessment of alternatives for treatment of septage is outlined in Table 12A.
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Location - The conventional treatment alternatives would likely be situated at the existing wastewatertreatment facilities whereby the composting alternatives would probably be situated in an industrial
park.
Effect on W ater Quality - Conventional methods would have the same effect as exists today. Thecomposting alternatives would have no significant effect on the quality of water.
Noise - In all of the alternatives, there should be little effect on the environment.
Odour - In conventional treatment methods, the odour would be similar to what exists today. In thecomposting alternatives, the odour would increase and would need to be m itigated by use of biofilters
or scrubbers.
Dust - In all the alternatives there should be little change to the impact on the environm ent.
Traffic - As the number of treatm ent facilities decrease, the volum e of traffic will increase.
Disposal of Treated Biosolids
The environmental assessment of alternatives for disposal of treated biosolids for septage is outlined in Table
12B. Adequate protection of surface and groundwater quality is expected to be controlled by the requirem ents
of the Nutrient Managem ent Act. Location
- In conventional treatment alternatives biosolids should be diposed of s imilarly to how it
exists now. In the composting alternatives, the compost would be turned into fertilizer and thedestination would depend upon the demand for the nutrients.
W ater Quality - Conventional alternatives would be similar to what exist today. The compostingalternatives should have no significant effect on water quality.
Noise - In conventional methods, noise should be similar to what exists and in the compostingmethods, there should be less noise than exist today.
Odour - Conventional methods would be similar to what exist today and composting alternatives wouldbe less than exist today.
Dust - Conventional methods should be sim ilar to what happens now. With the compostingalternatives, there should be less than exist today because theres less product to dispose of.
Traffic - As the number of treatment facilities decrease, the traffic will increase in the conventional
methods, however, in the composting alternatives, there should be less traffic than there is today.
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7.2.4 Assessment of Comments From Public and Government Agencies
An advertisement regarding The Municipalities of Grey Septage Management Plan was placed in the Owen
Sound Sun Times on February 6, 2004 advertising the study and public meeting date. Henderson Paddon &Associates Limited set up a website address for information www.hp.on.ca - Whats New in January, 2004.
The initial results in table form were posted on the website February 23rd and the Draft Report, March 3rd, 2004.
The public meeting was held at the Kinplex in Flesherton on Wednesday evening, March 3rd at 7:00 p.m. Fortytwo people attended and there was representation from 13 municipalities within the region. Notification was
sent on March 3, 2004 to all local municipalities within Grey County, the surrounding Counties, neighbouringmunicipalities, and to government agencies asking for comments regarding the Draft Septage Management
Plan (See Appendix H for notification list). Comments are attached in Appendix H. All comments wererequested to be received by noon on Monday, March 8, 2004. The following is a list of the government
agencies contacted by email for comments regarding the Draft Septage Management Plan:
Ministry of Environment (Toronto, Owen Sound and London) Ministry of Natural Resources (Midhurst) Ministry of Municipal Affairs (Toronto) Ministry of Agriculture and Food (Guelph) Grey Sauble Conservation Authority
Saugeen Valley Conservation Authority
Nottaw asaga Conservation Authority
The following is a sum mary of comments received:
Township of Georgian Bluffs - there was a concern expressed on the frequency of septic tank pump
out and stated that it should be controlled by provincial legislation not municipal bylaws.
Town of Hanover - it was their feeling that the BOD5 design capacity for Hanover was calculated
improperly and the numbers in Table 9 should be adjusted.
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Township of Wellington North - Gary W illiam son, W orks Superintendent indicated that their
municipality would be interested in the Durham proposal since hauling distances would be s imilar to
those in som e areas of G rey County. The Township may be interested in being involved in the project.
Municipality of Arran-Elderslie - interested in using a regional facility to treat and compost septage
and sewage biosolids.
Town of Minto - Council has not discussed the project, however staff of the Town of Minto arerecommending the support of the Grey County Project.
Township of Howick - did not receive the request to comm ent until March 8.
County of Grey - mainly suggested some wording changes and concern that the GIS mapp ing to
determine septic locations was not the Countys responsibility since this mapping came from MPAC.
Also cautioned whether the preferred option Alternative #4 had the appropriate Official Plan and zoningin place and question whether in fact haul routes should be addressed at this time.
Municipality of North Bruce Peninsula -they recomm end that their Municipalitys Septage Study
prepared and presented by Ross Slaughter, Henderson Paddon & Associates, January, 2004 besubmitted to the Septage Managem ent Plan Committee and Technical Com mittee to initiate
discussion as per recomm endation 4 which recommends discussions be held with mem bers of the
municipalities of Grey County Septage Management Task Force.
Ministry of Environment - recommend information be added in regard to Reg. 326/03 (Portable ToiletRegulation) and Reg. 267/03 Nutrient Management Regulation (passed under the NutrientManagem ent Act 2002).
Ministry of Natural Resources - have no concerns with the preferred option being Alternative 4.
Grey Bruce Health Unit - need a better understanding of metal accumulation in septage biosolids and
how critical volume and pump out frequency is to design of the treatm ent facility.
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Saugeen Valley Conservation Authority - requested to be kept inform ed as pro jects may have affecton the main Saugeen River and a small wetland at Durham.
Paul Arnill - states that it appears that there are two primary issues, the first being choosing the best
technology for the job and secondly, how would such a treatment plant and operation be paid for.
Carol Lawrence, Councillor for the Municipality of West Grey - stated that the Durham system
should be adequately compensated from a capital perspective for the use of existing capacity and
operational costs, based on the volume of effluent flow.
Ron M iller - needs more time and study regarding the problem of treatment of septage.
Environmental Treatment Services (ETS) - concerned that the generic difference between ETS andN-Viro Systems, were not explained and feels a pilot in ETS case could be done with a site visit to the
United States where it is proven technology.
The Walkerton Healthy Community Initiative - letter on support for the project and offered to provideany assistance to aid the process.
7.2.5 Septage Haulage Assessment
For the alternative to upgrade one (1) wastewater treatment plant in Durham as shown on Figures 3, 5 and 9,the quantity of hauled septage for the 20 year design would be 234.2 m 3/day. The number of trucks 15
m 3/truck (3300 IG/ truck) would be 15.6 (see Table 13). The maximum hauled distance is estimated to be70 km, the average hauled distance is estimated to be 40 km; therefore, the average septage haulage costsper day would be $3,744 or $15.98/ m 3.
If three (3) wastewater treatment plants were upgraded, located in Durham, Meaford and Flesherton, theaverage hauled septage would be 234.2 m3/day and number of truckloads would be 15.6 as shown on F igure4. However, the average haul distance would be only 22 km for a cost of $1,786/day or $7.63 m3. The costto calculate daily trucking cost is the number of trucks/day times the average km times 2 to cover two-waytravel, times cost per kilom etre.
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Haul routes would be generally on provinc ial and county roads. However, haul routes would need to be furtheraddressed in the vicinity of the septage treatment and disposal sites in the Environmental Assessment process.
It should be noted that there is an additional change for the Septic Tank Pumpout. This is for the work to
remove the septage from the tank and load it into the wastewater truck. This cost (estimated to be between$20 to $50/m 3 of septage) is in addition to the septage haulage costs . For the purposes of this study, this costis estimated to be approximately $30/m 3 of septage pumped from the septic tank.
7.2.6 Financial Assessment of Alternatives
The financial assessment of septage treatment, and treated biosolids disposal is outlined in Table 16. A
detailed financial assessment has been carried out for alternatives 1, 2, 3 and 4, as outlined in Table 16 for
the capital costs for treatm ent, annual operating cost for treatment, annual septage haulage cost, treatedbiosolid disposal cost and estimated cost per m 3 for hauling, treating and disposing of septage. The septic tank
pumpout cost of $30/m3 must be added to the cost per m 3 of septage treated. Capital costs for Alternative 1which is the treatment of septage at one wastewater treatment plant in each of 6 municipalities is $8,200,000.Alternative 3 is the treatment of septage at three (3) upgraded wastewater treatment plants at Flesherton,Meaford and Durham is the most expensive capital cost at $13,660,000. The estimated quantity and loadingsof septage treatment at each wastewater treatment plant are outlined in Table 14 for alternative 3. The
detailed financial analysis for Alternative 3 is outlined in Table 15. The capital cost for treatment alternative
4, which is a privately owned and operated dewatering and composting facility with wastewater discharged toone existing wastewater treatment plant (Durham) is $6,700,000.00. Operating costs range from a low of$275,000 per year for alternative 2 which is upgrading one municipal wastewater treatment plant within theCounty of G rey, to $600,000 per year for upgrading one wastewater treatm ent plant in each municipality (six(6) wastewater treatment plants). The least expensive alternative would be alternative 4 which is private lyowned and operated dewatering and composting facility at one existing wastewater treatment plant which
would dewater and compost the septage with the liquid portion of the wastewater being treated at the Durhamwastewater treatm ent plant. For alternative 4, the composting facility would be located in the industrial park
area in Durham or another area in close proximity to Durham. The total cost /m3 would be approximately$83.90 /m3 for treatment, septic tank pumpout, haulage of septage and disposal of treated biosolids. The nextleast cost alternative would be alternative 1 at a total for treatment, septic tank pumpout, haulage of septageand disposal of treated biosolids of $84.45/m 3. No adequate financial analysis was received for a privately
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owned and operated wastewater treatment facility to dewater, compost and treat septage with effluentdischarge back to a receiving water body which is alternative 5. For alternative 6, which is a mobile privately
owned and operated treatment facility to treat septage and biosolids, s ignificantly more information is needed,but this alternative could be utilized in conjunction with other treatm ent options. Alternative 7 which isspecialized pumper trucks that separate solids and liquids from septage at the septage tank site appears tobe not financially feasible or socially acceptable. This alternative could be further investiga ted if there was
interest by the haulers and the Province. Alternative 8 is a privately owned and operated treatm ent facility
covering a larger geographic area than Grey County. This alternative was not evaluated further since it would
appear that hauling costs would be expensive without approval of transfer stations to transfer septage fromsmaller to larger trucks for long distance hauling. Alternative 9 which is liquid lime stabilization in tanker trucks
by private haulers and spreading treated septage on agricultural land should be considered as an interimmeasure only until septage treatment facilities are in place.
7.3 Evaluation of Septage Treatment Alternatives
Alternative 1 is upgrading of one wastewater treatment plant in each municipality. This treatment alternative,
requires the upgrading of six of the wastewater treatment plants within the County of Grey. The locations ofthe existing wastewater treatment plants are shown on Figure 3. Wastewater treatment plants most likely to
be upgraded for the use of treating septage in this alternative are the following; Derby, Meaford, Thornbury,Markdale, Dund